# Supplementary Material (ESI) for Organic & Biomolecular Chemistry # This journal is © The Royal Society of Chemistry 2003 data_global _journal_name_full Org.Biomol.Chem. _journal_coden_Cambridge 0177 loop_ _publ_author_name 'Adam Nelson' 'Stephen Bartlett' 'Robert Hodgson' 'Joanne M. Holland' 'Matthew Jones' 'Colin Kilner' ; S.Warriner ; _publ_contact_author_name 'Dr Adam Nelson' _publ_contact_author_address ; Chemistry University of Leeds University of Leeds Leeds LS2 9JT UNITED KINGDOM ; _publ_contact_author_email ADAMN@CHEM.LEEDS.AC.UK _publ_section_title ; Exploiting predisposition in the stereoselective synthesis of mono-, bi- and tetracyclic oxygen heterocycles: Equilibration between, and trapping of, alternative di- and tetraacetals ; data_jmh277 _database_code_CSD 206733 _audit_creation_method SHELXL-97 _chemical_name_systematic ; ? ; _chemical_name_common ? _chemical_melting_point ? _chemical_formula_moiety ? _chemical_formula_sum 'C18 H30 O8' _chemical_formula_weight 374.42 loop_ _atom_type_symbol _atom_type_description _atom_type_scat_dispersion_real _atom_type_scat_dispersion_imag _atom_type_scat_source C C 0.0033 0.0016 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' H H 0.0000 0.0000 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' O O 0.0106 0.0060 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' _symmetry_cell_setting Monoclinic _symmetry_space_group_name_H-M C2/c loop_ _symmetry_equiv_pos_as_xyz 'x, y, z' '-x, y, -z+1/2' 'x+1/2, y+1/2, z' '-x+1/2, y+1/2, -z+1/2' '-x, -y, -z' 'x, -y, z-1/2' '-x+1/2, -y+1/2, -z' 'x+1/2, -y+1/2, z-1/2' _cell_length_a 17.7588(10) _cell_length_b 7.8904(4) _cell_length_c 13.1044(7) _cell_angle_alpha 90.00 _cell_angle_beta 91.161(3) _cell_angle_gamma 90.00 _cell_volume 1835.86(17) _cell_formula_units_Z 4 _cell_measurement_temperature 150(2) _cell_measurement_reflns_used ? _cell_measurement_theta_min 2.29 _cell_measurement_theta_max 26 _exptl_crystal_description plate _exptl_crystal_colour colourless _exptl_crystal_size_max 0.30 _exptl_crystal_size_mid 0.09 _exptl_crystal_size_min 0.02 _exptl_crystal_density_meas ? _exptl_crystal_density_diffrn 1.355 _exptl_crystal_density_method 'not measured' _exptl_crystal_F_000 808 _exptl_absorpt_coefficient_mu 0.106 _exptl_absorpt_correction_type None _exptl_absorpt_correction_T_min ? _exptl_absorpt_correction_T_max ? _exptl_absorpt_process_details ? _exptl_special_details ; ? ; _diffrn_ambient_temperature 150(2) _diffrn_radiation_wavelength 0.71073 _diffrn_radiation_type MoK\a _diffrn_radiation_source 'fine-focus sealed tube' _diffrn_radiation_monochromator graphite _diffrn_measurement_device_type 'Nonius KappaCCD area-detector diffractometer' _diffrn_measurement_method 'phi-omega scans' _diffrn_detector_area_resol_mean ? _diffrn_standards_number ? _diffrn_standards_interval_count ? _diffrn_standards_interval_time ? _diffrn_standards_decay_% ? _diffrn_reflns_number 7982 _diffrn_reflns_av_R_equivalents 0.1062 _diffrn_reflns_av_sigmaI/netI 0.0697 _diffrn_reflns_limit_h_min -21 _diffrn_reflns_limit_h_max 18 _diffrn_reflns_limit_k_min -9 _diffrn_reflns_limit_k_max 9 _diffrn_reflns_limit_l_min -16 _diffrn_reflns_limit_l_max 16 _diffrn_reflns_theta_min 2.29 _diffrn_reflns_theta_max 26.00 _reflns_number_total 1795 _reflns_number_gt 1413 _reflns_threshold_expression >2sigma(I) _computing_data_collection ? _computing_cell_refinement ? _computing_data_reduction ? _computing_structure_solution 'SHELXS-97 (Sheldrick, 1990)' _computing_structure_refinement 'SHELXL-97 (Sheldrick, 1997)' _computing_molecular_graphics ? _computing_publication_material ? _refine_special_details ; Refinement of F^2^ against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F^2^, conventional R-factors R are based on F, with F set to zero for negative F^2^. The threshold expression of F^2^ > 2sigma(F^2^) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F^2^ are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. ; _refine_ls_structure_factor_coef Fsqd _refine_ls_matrix_type full _refine_ls_weighting_scheme calc _refine_ls_weighting_details 'calc w=1/[\s^2^(Fo^2^)+(0.0689P)^2^+1.1658P] where P=(Fo^2^+2Fc^2^)/3' _atom_sites_solution_primary direct _atom_sites_solution_secondary difmap _atom_sites_solution_hydrogens geom _refine_ls_hydrogen_treatment mixed _refine_ls_extinction_method SHELXL _refine_ls_extinction_coef 0.009(3) _refine_ls_extinction_expression Fc^*^=kFc[1+0.001xFc^2^\l^3^/sin(2\q)]^-1/4^ _refine_ls_number_reflns 1795 _refine_ls_number_parameters 123 _refine_ls_number_restraints 0 _refine_ls_R_factor_all 0.0680 _refine_ls_R_factor_gt 0.0481 _refine_ls_wR_factor_ref 0.1395 _refine_ls_wR_factor_gt 0.1274 _refine_ls_goodness_of_fit_ref 1.050 _refine_ls_restrained_S_all 1.050 _refine_ls_shift/su_max 0.000 _refine_ls_shift/su_mean 0.000 loop_ _atom_site_label _atom_site_type_symbol _atom_site_fract_x _atom_site_fract_y _atom_site_fract_z _atom_site_U_iso_or_equiv _atom_site_adp_type _atom_site_occupancy _atom_site_symmetry_multiplicity _atom_site_calc_flag _atom_site_refinement_flags _atom_site_disorder_assembly _atom_site_disorder_group O50 O 0.19530(7) 0.14872(16) 0.77883(9) 0.0369(4) Uani 1 1 d . . . O9 O 0.03543(7) 0.28536(15) 0.52660(9) 0.0326(4) Uani 1 1 d . . . O80 O 0.15796(7) 0.34740(15) 0.47545(9) 0.0349(4) Uani 1 1 d . . . O4 O 0.09292(7) 0.32349(16) 0.73500(9) 0.0346(4) Uani 1 1 d . . . C8 C 0.11320(10) 0.2735(2) 0.55278(13) 0.0299(4) Uani 1 1 d . . . C1 C 0.00914(10) 0.4553(2) 0.54987(13) 0.0313(4) Uani 1 1 d . . . H1 H -0.0398(10) 0.443(2) 0.5917(14) 0.030(5) Uiso 1 1 d . . . C5 C 0.11710(10) 0.1569(2) 0.75927(14) 0.0345(5) Uani 1 1 d . . . H5 H 0.0907 0.1194 0.8220 0.041 Uiso 1 1 calc R . . C2 C 0.07268(10) 0.5405(2) 0.61277(13) 0.0340(5) Uani 1 1 d . . . H2A H 0.1000 0.6242 0.5711 0.041 Uiso 1 1 calc R . . H2B H 0.0526 0.5981 0.6735 0.041 Uiso 1 1 calc R . . C51 C 0.21832(12) 0.2482(3) 0.86465(16) 0.0435(5) Uani 1 1 d . . . H51A H 0.2730 0.2387 0.8749 0.052 Uiso 1 1 calc R . . H51B H 0.1930 0.2074 0.9257 0.052 Uiso 1 1 calc R . . H51C H 0.2049 0.3671 0.8524 0.052 Uiso 1 1 calc R . . C3 C 0.12372(10) 0.3932(2) 0.64364(13) 0.0315(4) Uani 1 1 d . . . H3 H 0.1774 0.4292 0.6536 0.038 Uiso 1 1 calc R . . C81 C 0.15267(12) 0.2640(3) 0.37893(14) 0.0424(5) Uani 1 1 d . . . H81A H 0.1849 0.3221 0.3302 0.051 Uiso 1 1 calc R . . H81B H 0.1003 0.2666 0.3538 0.051 Uiso 1 1 calc R . . H81C H 0.1692 0.1460 0.3866 0.051 Uiso 1 1 calc R . . C6 C 0.09825(11) 0.0332(2) 0.67415(14) 0.0366(5) Uani 1 1 d . . . H6A H 0.0429 0.0244 0.6657 0.044 Uiso 1 1 calc R . . H6B H 0.1180 -0.0803 0.6926 0.044 Uiso 1 1 calc R . . C7 C 0.13201(10) 0.0897(2) 0.57370(13) 0.0338(5) Uani 1 1 d . . . H7A H 0.1874 0.0751 0.5771 0.041 Uiso 1 1 calc R . . H7B H 0.1118 0.0183 0.5174 0.041 Uiso 1 1 calc R . . loop_ _atom_site_aniso_label _atom_site_aniso_U_11 _atom_site_aniso_U_22 _atom_site_aniso_U_33 _atom_site_aniso_U_23 _atom_site_aniso_U_13 _atom_site_aniso_U_12 O50 0.0383(8) 0.0361(7) 0.0360(7) -0.0006(5) -0.0048(5) 0.0027(5) O9 0.0335(7) 0.0261(7) 0.0379(7) -0.0027(5) -0.0057(5) 0.0036(5) O80 0.0415(8) 0.0327(7) 0.0304(7) -0.0020(5) 0.0016(5) -0.0002(5) O4 0.0390(7) 0.0342(7) 0.0305(7) -0.0005(5) 0.0006(5) 0.0055(5) C8 0.0307(9) 0.0288(9) 0.0302(9) -0.0002(7) -0.0018(7) 0.0032(7) C1 0.0326(10) 0.0288(9) 0.0324(9) -0.0022(7) -0.0027(7) 0.0040(7) C5 0.0367(10) 0.0328(10) 0.0340(9) 0.0041(8) -0.0016(8) 0.0020(8) C2 0.0404(11) 0.0283(9) 0.0329(9) -0.0033(7) -0.0058(8) 0.0037(7) C51 0.0445(12) 0.0419(11) 0.0438(11) -0.0045(9) -0.0100(9) 0.0001(9) C3 0.0345(10) 0.0280(9) 0.0317(9) -0.0013(7) -0.0014(7) 0.0022(7) C81 0.0529(13) 0.0421(11) 0.0323(10) -0.0043(8) 0.0053(9) 0.0015(9) C6 0.0434(11) 0.0300(9) 0.0363(10) 0.0019(8) -0.0033(8) 0.0003(8) C7 0.0393(10) 0.0273(9) 0.0344(9) -0.0032(8) -0.0043(8) 0.0046(7) _geom_special_details ; All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. ; loop_ _geom_bond_atom_site_label_1 _geom_bond_atom_site_label_2 _geom_bond_distance _geom_bond_site_symmetry_2 _geom_bond_publ_flag O50 C5 1.409(2) . ? O50 C51 1.425(2) . ? O9 C8 1.419(2) . ? O9 C1 1.454(2) . ? O80 C8 1.425(2) . ? O80 C81 1.427(2) . ? O4 C5 1.417(2) . ? O4 C3 1.436(2) . ? C8 C7 1.512(2) . ? C8 C3 1.528(2) . ? C1 C1 1.515(3) 5_566 ? C1 C2 1.538(2) . ? C5 C6 1.515(3) . ? C2 C3 1.523(2) . ? C6 C7 1.524(2) . ? loop_ _geom_angle_atom_site_label_1 _geom_angle_atom_site_label_2 _geom_angle_atom_site_label_3 _geom_angle _geom_angle_site_symmetry_1 _geom_angle_site_symmetry_3 _geom_angle_publ_flag C5 O50 C51 112.60(14) . . ? C8 O9 C1 108.96(12) . . ? C8 O80 C81 114.45(14) . . ? C5 O4 C3 115.08(13) . . ? O9 C8 O80 110.81(13) . . ? O9 C8 C7 108.48(14) . . ? O80 C8 C7 113.38(14) . . ? O9 C8 C3 104.52(13) . . ? O80 C8 C3 103.90(14) . . ? C7 C8 C3 115.37(14) . . ? O9 C1 C1 108.21(17) . 5_566 ? O9 C1 C2 106.27(13) . . ? C1 C1 C2 113.63(19) 5_566 . ? O50 C5 O4 112.14(14) . . ? O50 C5 C6 107.86(15) . . ? O4 C5 C6 111.78(14) . . ? C3 C2 C1 103.59(14) . . ? O4 C3 C2 106.21(14) . . ? O4 C3 C8 111.73(14) . . ? C2 C3 C8 101.64(13) . . ? C5 C6 C7 111.28(15) . . ? C8 C7 C6 110.35(14) . . ? _diffrn_measured_fraction_theta_max 0.996 _diffrn_reflns_theta_full 26.00 _diffrn_measured_fraction_theta_full 0.996 _refine_diff_density_max 0.359 _refine_diff_density_min -0.340 _refine_diff_density_rms 0.078